© Digitized Sky Survey,
ESO Larger image.
Not exact matches
The scientists used an instrument called SPHERE on the Very
Large Telescope (VLT)-- an array of four different telescopes run by the European Southern Observatory (
ESO)-- to take the new
images of infant solar systems and their protoplanetary disks.
This color
image shows the Hubble Ultra Deep Field region, a tiny but much - studied region in the constellation of Fornax, as observed with the MUSE instrument on
ESO's Very
Large Telescope.
The background
image includes optical and near - infrared imaging from both the Gemini South and
ESO Very
Large Telescope.
This new
image, taken by
ESO's Very
Large Telescope at the Paranal Observatory in Chile, explores an area called NGC 2035 (right), sometimes nicknamed the Dragon's Head Nebula.
Finding targets for the Starshot is one aim of a Breakthrough - funded effort that
ESO announced last year: adapting an existing instrument on the Very
Large Telescope in Chile to directly
image possible planets.
With around two billion pixels this is one of the
largest images ever released by
ESO.
[1] The Orion Nebula has been studied by many of
ESO's telescopes, including
images in visible light from the MPG /
ESO 2.2 - metre telescope (
eso1103) and infrared
images from VISTA (
eso1701) and the HAWK - I instrument on the Very
Large Telescope (
eso1625).
It combines a mosaic of millimetre wavelength
images from the Atacama
Large Millimeter / submillimeter Array (ALMA) and the IRAM 30 - metre telescope, shown in red, with a more familiar infrared view from the HAWK - I instrument on
ESO's Very
Large Telescope, shown in blue.
It combines a mosaic of millimetre - wavelength
images from the Atacama
Large Millimeter / submillimeter Array (ALMA) and the IRAM 30 - metre telescope, shown in red, with a more familiar infrared view from the HAWK - I instrument on
ESO's Very
Large Telescope, shown in blue.
With its huge corrected field of view and specially designed 256 - megapixel camera, OmegaCAM, the VST can produce deep
images of
large areas of sky quickly, leaving the much larger telescopes — like ESO's Very Large Telescope (VLT)-- to explore the details of individual obj
large areas of sky quickly, leaving the much
larger telescopes — like
ESO's Very
Large Telescope (VLT)-- to explore the details of individual obj
Large Telescope (VLT)-- to explore the details of individual objects.
This 2.3 - gigapixel
image is one of the
largest images ever released by
ESO.
In preparation for the imminent arrival of NASA's Juno spacecraft in July 2016, astronomers used
ESO's Very
Large Telescope to obtain spectacular new infrared
images of Jupiter using the VISIR instrument.
This
image was taken by the Very
Large Telescope (VLT) at
ESO's Paranal Observatory in Chile — the best place in the southern hemisphere for astronomical observing.
This
image from the VISTA infrared survey telescope at
ESO's Paranal Observatory in northern Chile is part of the
largest infrared high - resolution mosaic of Orion ever created.
Colour
image of the Hubble Ultra Deep Field region observed with the MUSE instrument on
ESO's Very
Large Telescope.
A team of astronomers using
ESO's Very
Large Telescope (VLT) has captured the most detailed
images ever of the hypergiant star VY Canis Majoris.
Original press release,
images, and videos by
ESO: https://www.
eso.org/public/news/
eso1738/ Science contacts: Dr. Davor Krajnovic, +49 331-7499 237,
[email protected] Dr. Lutz Wisotzki, +49 331-7499 532,
[email protected] Media contact: Katrin Albaum, +49 331-7499 803,
[email protected] Full
image caption: Colour
image of the Hubble Ultra Deep Field region observed with the MUSE instrument on
ESO's Very
Large Telescope.
ESO Larger infrared
image.
The
ESO's Very
Large Telescope (VLT) has captured a beautiful
image of a planetary nebula known as NGC 7009, or the Saturn Nebula, as part of a wider study attempting to unravel the processes that give these vast cosmic clouds of dust and glowing gas their distinctive shape.
It combines a mosaic of millimeter - wavelength
images from the Atacama
Large Millimeter / submillimeter Array (ALMA) and the IRAM 30 - metre telescope, shown in red, with a more familiar infrared view from the HAWK - I instrument on
ESO's Very
Large Telescope shown in blue.
New thermal
images from
ESO's Very
Large Telescope (VLT) and other ground - based telescopes show swirls of warmer air and cooler regions never seen before within Jupiter's Great Red Spot.
This picture of the dramatic nebula around the bright red supergiant star Betelgeuse was created from
images taken with the VISIR infrared camera on
ESO's Very
Large Telescope (VLT).
images from ALMA and the IRAM 30 - meter telescope, shown in red, with a more familiar infrared view from the HAWK - I instrument on
ESO's Very
Large Telescope shown in blue.
Using
ESO's Very
Large Telescope Interferometer astronomers have constructed the most detailed
image ever of a star — the red supergiant star Antares.
See
images of new observations from
ESO's Very
Large Telescope showing a gas cloud ripped apart by the supermassive black hole at the center of our galaxy, the Milky Way.
This unprecedented
image of Herbig - Haro object HH 46/47 combines radio observations acquired with the Atacama
Large Millimeter / submillimeter Array (ALMA) with much shorter wavelength visible light observations from
ESO's New Technology Telescope (NTT).
A team of astronomers has used the Precision Integrated - Optice Near - infrared Imaging ExpeRiment (PIONIER) instrument mounted aboard the
ESO's Very
Large Telescope (VLT) to
image the massive red giant star.
Yuri Beletsky,
ESO Larger field
image.
Combining the
images from the FORS instrument on the
ESO telescope using four different filters with those of other
large telescopes, a team of astronomers led by Karen Meech of the Institute for Astronomy in Hawaii found that «Oumuamua varies in brightness by a factor of 10 as it spins on its axis every 7.3 hours.
©
ESO, Gillessen et al, 2008
Larger and jumbo near - infrared
images.
LESIA,
ESO, SwRI, Keck Observatory
Larger near - infrared
image.